The neutron rich nucleus 193Os was produced in the 192Os(TLi, 6Li)193Os reaction. An isomeric state based on the 9/2-[505] Nilsson orbital was identified in the present work. The half-life of the isomeric state was ...The neutron rich nucleus 193Os was produced in the 192Os(TLi, 6Li)193Os reaction. An isomeric state based on the 9/2-[505] Nilsson orbital was identified in the present work. The half-life of the isomeric state was extracted and discussed in terms of the K quantum number. A level scheme built on the isomeric state was proposed based on the experimental data.展开更多
A wide range of research topics in different fields of physics can be addressed by study of the self-conjugate N = Z nuclei, such as the np pairing, isospin symmetry, the rp-process and the properties of the electrowe...A wide range of research topics in different fields of physics can be addressed by study of the self-conjugate N = Z nuclei, such as the np pairing, isospin symmetry, the rp-process and the properties of the electroweak interaction. This contribution focuses on the spectroscopy of N^Z nuclei towards ^(100)Sn. The latest results on the isomeric decay spectroscopy of N^Z nuclei below ^(100)Sn, such as the N = Z +2 nuclides ^(94)Pd and ^(96)Ag, the N = Z nuclide ^(96)Cd and so on are highlighted. New opportunities in in-beam γ spectrscopy of N^Z nuclei towards ^(100)Sn, like ^(90)Rh and ^(92)Pd, with radioactive ion beams are discussed.展开更多
基金Supported by National Natural Science Foundation of China(10905075)
文摘The neutron rich nucleus 193Os was produced in the 192Os(TLi, 6Li)193Os reaction. An isomeric state based on the 9/2-[505] Nilsson orbital was identified in the present work. The half-life of the isomeric state was extracted and discussed in terms of the K quantum number. A level scheme built on the isomeric state was proposed based on the experimental data.
基金Hundred Talents Program of Chinese Academy of Sciences and National Natural Science Foundation of China(11405224,11435014)
文摘A wide range of research topics in different fields of physics can be addressed by study of the self-conjugate N = Z nuclei, such as the np pairing, isospin symmetry, the rp-process and the properties of the electroweak interaction. This contribution focuses on the spectroscopy of N^Z nuclei towards ^(100)Sn. The latest results on the isomeric decay spectroscopy of N^Z nuclei below ^(100)Sn, such as the N = Z +2 nuclides ^(94)Pd and ^(96)Ag, the N = Z nuclide ^(96)Cd and so on are highlighted. New opportunities in in-beam γ spectrscopy of N^Z nuclei towards ^(100)Sn, like ^(90)Rh and ^(92)Pd, with radioactive ion beams are discussed.